C.O.T. Galvin scite author profile

Density functional theory calculations were used to investigate the phase transformations of Li x TiO 2 (at 0 ≤ x ≤ 1), solidstate Li + diffusion, and interfacial charge-transfer reactions in both crystalline and amorphous forms of TiO 2 . It is shown that in contrast to crystalline TiO 2 polymorphs, the energy barrier to Li + diffusion in amorphous TiO 2 decreases with increasing mole fraction of Li + due to the changes of chemical species pair interactions following the progressive filling of low-energy Li + trapping sites. Sites with longer Li−Ti and Li−O interactions exhibit lower Li + insertion energies and higher migration energy barriers. Due to its disordered atomic arrangement and increasing Li + diffusivity at higher mole fractions, amorphous TiO 2 exhibits both surface and bulk storage mechanisms. The results suggest that nanostructuring of crystalline TiO 2 can increase both the rate and capacity because the capacity dependence on the bulk storage mechanism is minimized and replaced with the surface storage mechanism. These insights into Li + storage mechanisms in different forms of TiO 2 can guide the fabrication of TiO 2 electrodes to maximize the capacity and rate performance in the future.

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Pipe and grain boundary diffusion of He in UO₂

Galvin

Cooper

Fossati

et al. 2016

J. Phys.: Condens. Matter

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Molecular dynamics simulations have been conducted to study the effects of dislocations and grain boundaries on He diffusion in [Formula: see text]. Calculations were carried out for the {1 0 0}, {1 1 0} and {1 1 1} [Formula: see text] edge dislocations, the screw [Formula: see text] dislocation and Σ5, Σ13, Σ19 and Σ25 tilt grain boundaries. He diffusivity as a function of distance from the dislocation core and grain boundaries was investigated for the temperature range 2300-3000 K. An enhancement in diffusivity was predicted within 20 Å of the dislocations or grain boundaries. Further investigation showed that He diffusion in the edge dislocations follows anisotropic behaviour along the dislocation core, suggesting that pipe diffusion occurs. An Arrhenius plot of He diffusivity against the inverse of temperature was also presented and the activation energy calculated for each structure, as a function of distance from the dislocation or grain boundary.

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Thermophysical properties and oxygen transport in (Thx,Pu1−x)O2

Galvin

Cooper

Rushton

et al. 2016

Sci Rep

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Using Molecular Dynamics, this paper investigates the thermophysical properties and oxygen transport of (Thx,Pu1−x)O2 (0 ≤ x ≤ 1) between 300–3500 K. In particular, the superionic transition is investigated and viewed via the thermal dependence of lattice parameter, linear thermal expansion coefficient, enthalpy and specific heat at constant pressure. Oxygen diffusivity and activation enthalpy are also investigated. Below the superionic temperature an increase of oxygen diffusivity for certain compositions of (Thx,Pu1−x)O2 compared to the pure end members is predicted. Oxygen defect formation enthalpies are also examined, as they underpin the superionic transition temperature and the increase in oxygen diffusivity. The increase in oxygen diffusivity for (Thx,Pu1−x)O2 is explained in terms of lower oxygen defect formation enthalpies for (Thx,Pu1−x)O2 than PuO2 and ThO2, while links are drawn between the superionic transition temperature and oxygen Frenkel disorder.

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Fission gas in thoria

Kuganathan

Ghosh

Galvin

et al. 2017

Journal of Nuclear Materials

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Melting behavior of (Th,U)O2 and (Th,Pu)O2 mixed oxides

Ghosh

Kuganathan

Galvin

et al. 2016

Journal of Nuclear Materials

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The melting behaviors of pure ThO2, UO2 and PuO2 as well as (Th,U)O2 and (Th,Pu)O2 mixed oxides (MOX) have been studied using molecular dynamics (MD) simulations. The MD calculated melting temperatures (MT) of ThO2, UO2 and PuO2 using two-phase simulations, lie between 3650-3675 K, 3050-3075 K and 2800-2825 K, respectively, which match well with experiments. Variation of enthalpy increments and density with temperature, for solid and liquid phases of ThO2, PuO2 as well as the ThO2 rich part of (Th,U)O2 and (Th,Pu)O2 MOX are also reported. The MD calculated MT of (Th,U)O2 and (Th,Pu)O2 MOX show good agreement with the ideal solidus line in the high thoria section of the phase diagram, and evidence for a minima is identified around 5 atom% of ThO2 in the phase diagram of (Th,Pu)O2 MOX.

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C.O.T. Galvin

Atomistic Insights into Lithium Storage Mechanisms in Anatase, Rutile, and Amorphous TiO₂ Electrodes

Pipe and grain boundary diffusion of He in UO₂

Thermophysical properties and oxygen transport in (Thx,Pu1−x)O2

Fission gas in thoria

Melting behavior of (Th,U)O2 and (Th,Pu)O2 mixed oxides

Contact Info

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Resources

About

C.O.T. Galvin

Atomistic Insights into Lithium Storage Mechanisms in Anatase, Rutile, and Amorphous TiO2 Electrodes

Pipe and grain boundary diffusion of He in UO2

Thermophysical properties and oxygen transport in (Thx,Pu1−x)O2

Fission gas in thoria

Melting behavior of (Th,U)O2 and (Th,Pu)O2 mixed oxides

Contact Info

Product

Resources

About

Atomistic Insights into Lithium Storage Mechanisms in Anatase, Rutile, and Amorphous TiO₂ Electrodes

Pipe and grain boundary diffusion of He in UO₂